Transcriptome Analysis Reveals the Important Role of Vitamin B 12 in the Response of Natronorubrum daqingense to Salt Stress

Natronorubrum daqingense JX313 T is an extremely halophilic archaea that can grow in a NaCl-saturated environment. The excellent salt tolerance of N. daqingense makes it a high-potential candidate for researching the salt stress mechanisms of halophilic microorganisms from Natronorubrum . In this study, transcriptome analysis revealed that three genes related to the biosynthesis of vitamin B 12 were upregulated in response to salt stress. For the wild-type (WT) strain JX313 T , the low-salt adaptive mutant LND5, and the vitamin B 12 synthesis-deficient strain Δ cobC , the exogenous addition of 10 mg/L of vitamin B 12 could maximize their cell survival and biomass in both optimal and salt stress environments. Knockout of cobC resulted in changes in the growth boundary of the strain, as well as a significant decrease in cell survival and biomass, and the inability to synthesize vitamin B 12 . According to the HPLC analysis, when the external NaCl concentration ( w / v ) increased from 17.5% (optimal) to 22.5% (5% salt stress), the intracellular accumulation of vitamin B 12 in WT increased significantly from (11.54 ± 0.44) mg/L to (15.23 ± 0.20) mg/L. In summary, N. daqingense is capable of absorbing or synthesizing vitamin B 12 in response to salt stress, suggesting that vitamin B 12 serves as a specific compatible solute effector for N. daqingense during salt stress.